For 24 human stool samples I have metagenomic shotgun reads from an Illumina platform. The reads were filtered and mapped against a bacterial species library and specific maps to species were kept and counted. Importantly, before DNA extraction from any sample it was spiked with a solution of a fixed DNA concentration of Thermus thermophilus, a species not occurring in the human microbiota. The reads from T. thermophilus allow me to convert relative abundance estimates back to abundance in the stool sample, to absolute abundance.
I want to test whether T. thermophilus is indeed a good internal control that removes confounding by converting to absolute abundance. To test this, I compare between-species correlations on the relative abundance scale with their correlations on absolute abundance scale. I would expect less correlation in the latter. I first take the raw read counts of a random set of species, I divide counts by a sample-specific size factor estimate (total number of reads r in sample i / geometric mean of r's) to adjust for library size, then I do arcsinh transform (to stabilise variance) and then I look at between species correlation. Next I take again the raw read counts, correct by the size factor, then correct for an estimate of the coverage ( estimated proportion of T. thermophilus in sample i ), and I do the acsinh transform. Again I look at between-species correlations.
I compare species-pair correlation before and after T. thermophilus correction in a scatterplot (see attached) to visualise the effect of the correction. I expected that the point cloud indicates a slope <1 reflecting that previously strong correlations have weakened on the absolute scale. But that is not what my result shows. Indeed, some weakly positive correlations have become stronger. How does this make sense? What other ways are there to test validity of an internal control?
